Results in Physics (Jun 2018)

Optimized scheme in coal-fired boiler combustion based on information entropy and modified K-prototypes algorithm

  • Hui Gu,
  • Hongxia Zhu,
  • Yanfeng Cui,
  • Fengqi Si,
  • Rui Xue,
  • Han Xi,
  • Jiayu Zhang

Journal volume & issue
Vol. 9
pp. 1262 – 1274

Abstract

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An integrated combustion optimization scheme is proposed for the combined considering the restriction in coal-fired boiler combustion efficiency and outlet NOx emissions. Continuous attribute discretization and reduction techniques are handled as optimization preparation by E-Cluster and C_RED methods, in which the segmentation numbers don't need to be provided in advance and can be continuously adapted with data characters. In order to obtain results of multi-objections with clustering method for mixed data, a modified K-prototypes algorithm is then proposed. This algorithm can be divided into two stages as K-prototypes algorithm for clustering number self-adaptation and clustering for multi-objective optimization, respectively. Field tests were carried out at a 660 MW coal-fired boiler to provide real data as a case study for controllable attribute discretization and reduction in boiler system and obtaining optimization parameters considering [maxηb,minyNOx] multi-objective rule. Keywords: Boiler combustion efficiency, NOx emissions, Multi-objective optimization, Clustering